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(Unicode C++) IMAP SSH Tunneling (Port Forwarding)Demonstrates how to setup and use an SSH tunnel for IMAP.
#include <CkImapW.h> #include <CkEmailW.h> void ChilkatSample(void) { // This example assumes the Chilkat API to have been previously unlocked. // See Global Unlock Sample for sample code. CkImapW imap; // The SSH hostname may be a hostname or an // IP address, such as "192.168.1.108". // The port is typically 22 (the standard port for SSH). const wchar_t *sshHostname = L"www.mysshserver.com"; int sshPort = 22; // Connect to an SSH server and establish the SSH tunnel: bool success = imap.SshOpenTunnel(sshHostname,sshPort); if (success != true) { wprintf(L"%s\n",imap.lastErrorText()); return; } // Authenticate with the SSH server via a login/password // or with a public key. // This example demonstrates SSH password authentication. // Note: This is not authenticating with the IMAP server, it is // for authenticating with the SSH server, which is separate. success = imap.SshAuthenticatePw(L"mySshLogin",L"mySshPassword"); if (success != true) { wprintf(L"%s\n",imap.lastErrorText()); return; } // OK, the SSH tunnel is setup. The IMAP component may // be used exactly the same as usual, except all communications // are sent through the SSH tunnel. // Connect to an IMAP server via the SSH tunnel. // Because the SSH tunnel has been previously setup, // this does not establish a direct connection with the IMAP // server. It directs the SSH server to establish the connection. // In this example, the IMAP server requires SSL/TLS. The TLS connection // will be enclosed within the SSH tunnel. imap.put_Ssl(true); imap.put_Port(993); success = imap.Connect(L"imap.my-imap-server.com"); if (success != true) { wprintf(L"%s\n",imap.lastErrorText()); return; } // Authenticate with the IMAP server via the SSH tunnel. success = imap.Login(L"myLogin",L"myPassword"); if (success != true) { wprintf(L"%s\n",imap.lastErrorText()); return; } // Select an IMAP mailbox success = imap.SelectMailbox(L"Inbox"); if (success != true) { wprintf(L"%s\n",imap.lastErrorText()); return; } // How many messages in Inbox? int msgCount = imap.get_NumMessages(); if (msgCount == 0) { wprintf(L"No messages found.\n"); return; } int upperBound = 10; if (msgCount < upperBound) { upperBound = msgCount; } // Download up to the 1st 10 messages. int i; bool bUid = false; for (i = 1; i <= upperBound; i++) { CkEmailW *email = imap.FetchSingle(i,bUid); if (imap.get_LastMethodSuccess() == false) { wprintf(L"%s\n",imap.lastErrorText()); return; } else { wprintf(L"%s\n",email->ck_from()); wprintf(L"%s\n",email->subject()); wprintf(L"----\n"); delete email; } } // Disconnect from the IMAP server. // The SSH tunnel remains open. success = imap.Disconnect(); if (success != true) { wprintf(L"%s\n",imap.lastErrorText()); return; } // It is possible to re-use the existing SSH tunnel for the next connection: success = imap.Connect(L"imap.my-imap-server2.com"); if (success != true) { wprintf(L"%s\n",imap.lastErrorText()); return; } // Review the LastErrorText to see that the connection was made via the SSH tunnel: wprintf(L"%s\n",imap.lastErrorText()); success = imap.Disconnect(); if (success != true) { wprintf(L"%s\n",imap.lastErrorText()); return; } // Finally, close the SSH tunnel. success = imap.SshCloseTunnel(); if (success != true) { wprintf(L"%s\n",imap.lastErrorText()); return; } wprintf(L"IMAP SSH tunneling example completed.\n"); } |
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